CN115647465A - Aluminum pipe cutting system - Google Patents

Abstract

The invention provides an aluminum pipe cutting system, and relates to the technical field of aluminum material cutting. The cutting table comprises a cutting table, wherein a cutting groove is formed in the cutting table, a slidable cutting disc is rotatably arranged in the cutting groove, a second cutting sliding seat and a third cutting sliding seat which slide along the direction perpendicular to the arrangement direction of the cutting groove are respectively arranged on the cutting table on two sides of the cutting groove, a plurality of fixing cylinders are arranged on the second cutting sliding seat and the third cutting sliding seat, tube cavities which are axially perpendicular to the cutting groove are arranged in the fixing cylinders, one ends of the fixing cylinders are open ends communicated with the tube cavities, an adjusting cylinder with the inner diameter matched with the outer diameter of the aluminum tube and an adjusting column with the outer diameter matched with the inner diameter of the aluminum tube are arranged in the tube cavities, a push ring with the outer diameter and the inner diameter respectively matched with the inner diameter of the adjusting cylinder and the outer diameter of the adjusting column is arranged in a sliding mode in the tube cavities between the adjusting cylinders and the adjusting column, the open ends of the fixing cylinders on the second cutting sliding seat and the third cutting sliding seat are oppositely arranged, and the tube cavities of the fixing cylinders on the second cutting sliding seat are respectively coaxial with the tube cavities of the fixing cylinders on the third cutting sliding seat.

Description

Aluminum pipe cutting system

Technical Field

The invention relates to the technical field of aluminum material cutting, in particular to an aluminum pipe cutting system.

Background

The aluminum pipe is a kind of non-ferrous metal pipe, and is a hollow metal pipe material produced with pure aluminum or aluminum alloy and through extrusion. Typically, the aluminium tube needs to be cut to obtain a suitable length of tube. At present, before an aluminum pipe is cut on a workbench, the aluminum pipe needs to be fixed firstly, the aluminum pipe is fixed through a pressing plate controlled by a cylinder, the aluminum pipe is pressed on the workbench through the pressing plate, and the pressing plate and the workbench clamp the aluminum pipe to realize fixation.

Because the aluminum pipe is tubular, the contact area between the bottom and the top of the aluminum pipe and the workbench and the contact area between the bottom and the top of the aluminum pipe and the pressing plate are small, and the clamping force for fixing the aluminum pipe by the workbench and the pressing plate is concentrated on the bottom and the top of the aluminum pipe. When the pressure of the pressing plate on the aluminum pipe is overlarge, the unit area stress of the bottom and the top of the aluminum pipe is extremely large, the aluminum pipe is easy to deform, and particularly, the deformation is obvious when the pipe wall of the aluminum pipe is thin. When clamp plate pressure is less, although the aluminum pipe is difficult to warp, nevertheless weaken the fixed effect to the aluminum pipe, the aluminum pipe is beated easily or the displacement among the cutting process, leads to a large amount of burrs to appear in incision department, appears cutting length inaccurate, the condition of incision slope even, seriously influences product quality.

Disclosure of Invention

The invention aims to develop an aluminum pipe cutting system which can fully fix an aluminum pipe and prevent the aluminum pipe from being deformed due to overlarge local stress.

The invention is realized by the following technical scheme:

an aluminum pipe cutting system comprising:

cutting table;

the cutting groove is arranged on the cutting table;

the cutting disc is rotatably arranged in the cutting groove and can slide along the cutting groove;

the second cutting slide seat and the third cutting slide seat are respectively arranged on the cutting tables on the two sides of the cutting groove in a sliding manner, and the sliding direction is vertical to the arrangement direction of the cutting groove;

the fixed cylinders are arranged on the second cutting slide seat and the third cutting slide seat;

the tube cavity is arranged in the fixed cylinder, the axial direction of the tube cavity is vertical to the cutting groove, and one end of the fixed cylinder is an opening end communicated with the tube cavity;

the adjusting cylinder is arranged in the tube cavity, is connected with the fixing cylinder and has the inner diameter matched with the outer diameter of the aluminum tube;

the adjusting column is arranged in the tube cavity, is connected with the fixed cylinder and has an outer diameter matched with the inner diameter of the aluminum tube;

the push ring is arranged in the tube cavity between the adjusting cylinder and the adjusting column in a sliding manner, and the outer diameter and the inner diameter of the push ring are respectively matched with the inner diameter of the adjusting cylinder and the outer diameter of the adjusting column;

the opening ends of the fixed cylinders on the second cutting slide seat and the third cutting slide seat are arranged oppositely, and the tube cavities of the fixed cylinders on the second cutting slide seat are coaxially arranged with the tube cavities of the fixed cylinders on the third cutting slide seat respectively.

Optionally, the adjusting cylinder and the adjusting column are respectively provided with an elastic sealing ring on the inner wall and the outer wall of the end portion of the opening end of the fixed cylinder, the end portion of the adjusting column is connected with the end bolt in the fixed cylinder, a connecting rod is arranged on the outer wall of the adjusting cylinder close to the opening end of the fixed cylinder, an external thread and a corresponding nut are arranged on the outer wall of the upper portion of the connecting rod, an installation block is slidably sleeved on the lower portion of the connecting rod, a connecting groove matched with the connecting rod is arranged on the outer wall of the opening end of the fixed cylinder, and an installation groove matched with the installation block is arranged on the outer wall of the fixed cylinder at the end of the connecting groove.

Optionally, a connecting hole is formed in the side wall, away from the opening end of the fixed cylinder, of the push ring, a push rod in threaded connection with the connecting hole is arranged in the connecting hole, external threads, corresponding nuts and an expanded end are sequentially arranged at one end, away from the push ring, of the push rod, a first slot matched with the connecting hole and used for the push rod to penetrate is arranged at the inner end of the fixed cylinder, the first slot is arranged along the radial direction of the adjusting cylinder, push blocks sliding along the axial direction of the tube cavity are arranged on a second cutting slide seat and a third cutting slide seat, away from one side of the cutting groove, of the fixed cylinder, a second slot for the push rod to penetrate is arranged on the push blocks, the position and the shape of the second slot are projections of the first slot on the push blocks, and the expanded end of the push rod is located on one side, away from the fixed cylinder, of the second slot.

Optionally, a rotating plate is rotatably arranged on the third cutting sliding seat, a fixing cylinder on the third cutting sliding seat is arranged on the rotating plate, a first cleaning support is arranged on the side wall of the cutting table, a second cleaning support is arranged between the first cleaning support and the cutting table, a plurality of fixing cylinder matched aluminum pipe supporting assemblies which are matched with the third cutting sliding seat are arranged on the side wall of the first cleaning support close to the cutting table, a first bidirectional moving assembly is arranged on the second cleaning support, and an aluminum pipe cleaning assembly is arranged on the side walls of the first bidirectional moving assembly and the first cleaning support in a rotating mode.

Optionally, the aluminum pipe supporting assembly comprises a plurality of supporting rods arranged on the side wall of the first cleaning support, the positions of the supporting rods correspond to the plurality of fixing cylinders of the third cutting slide seat respectively, a plurality of first telescopic rods are uniformly arranged on the outer wall of the supporting rods in the circumferential direction, first spring telescopic rods radially arranged along the supporting rods are arranged on the first telescopic rods, and supporting wheels are arranged on the first spring telescopic rods in a rotating mode.

Optionally, a first rotary column is sleeved on the support rod and is rotatably connected with the first cleaning support, a second rotary column is rotatably arranged on the first bidirectional moving assembly, third motors in transmission connection with the first rotary column and the second rotary column are respectively arranged on the first cleaning support and the first bidirectional moving assembly, and the aluminum pipe cleaning assembly is arranged on the first rotary column and the second rotary column.

Optionally, the aluminum pipe cleaning assembly comprises a first cleaning rod and a second telescopic rod which are arranged on the first rotary column and the second rotary column, two second cleaning rods are sequentially arranged in the axial direction of the second telescopic rod, the free ends of the two second cleaning rods incline to the same angle in the direction away from each other, so that an isosceles trapezoid-shaped notch is formed between the two second cleaning rods, the notches on the first rotary column and the second rotary column are arranged oppositely, and the first cleaning rod and the second cleaning rod are provided with a grinding layer.

Optionally, two sliding grooves are respectively formed in corresponding positions of the first rotating column and the second rotating column, an adjusting seat is arranged in each sliding groove in a sliding mode, a second spring telescopic rod connected with the adjusting seat is further arranged in each sliding groove, and the first cleaning rod and the second telescopic rod are respectively arranged on the adjusting seats in the two sliding grooves.

Optionally, two adjusting grooves are respectively formed in corresponding positions of the first rotating column and the second rotating column, adjusting blocks are arranged in the adjusting grooves in a sliding mode, second adjusting screw rods in threaded fit with the adjusting blocks are arranged in the adjusting grooves in a rotating mode, and the two sliding grooves are respectively formed in the two adjusting blocks.

Optionally, one side of the first cleaning support, which is far away from the cutting table, is provided with a plurality of conveying belts, the positions of the conveying belts correspond to those of the aluminum pipe supporting assemblies, a second bidirectional moving assembly is arranged above the conveying belts and the first cleaning support, a support plate is arranged on the second bidirectional moving assembly, and a plurality of holders, the positions of which correspond to those of the aluminum pipe supporting assemblies, are arranged at the bottom of the support plate.

The beneficial effects of the invention are:

the aluminum pipe is fixed firmly by arranging the adjusting cylinder in contact with the outer wall of the aluminum pipe and arranging the adjusting column in contact with the inner wall of the aluminum pipe in the aluminum pipe, the fixing mode not only ensures that the aluminum pipe is fixed firmly, reduces the jumping generated in the cutting of the aluminum pipe and reduces the generation of notch burrs of the aluminum pipe, but also compared with the traditional fixing mode, the whole inner wall and the whole outer wall of the aluminum pipe are stressed, the stress area of the aluminum pipe is greatly improved, and the deformation caused by the overlarge local stress of the aluminum pipe is avoided;

the first rotary column and the second rotary column respectively drive the aluminum pipe cleaning assembly to perform burr cleaning on the notch of the aluminum pipe, the cleaning efficiency is high, and the quality of the cut product is improved;

after the aluminum tubes are placed into the equipment, the cutting, cleaning and transferring of the aluminum tubes are automatically carried out, the automation degree is high, the manual intervention is reduced, the manual labor intensity is reduced, and the operation efficiency is improved;

the length of the pipe section cut by the same aluminum pipe can be changed randomly within a certain range, namely when the length of the next pipe section is different from that of the previous pipe section, the position of the push ring in the second fixed cylinder slides correspondingly to be matched with the length of the next pipe section when the next pipe section is cut;

the aluminum pipe cleaning device is wide in application range, the initial position of the push ring in the first fixing cylinder is changed according to the length change of the aluminum pipe, the adjusting cylinder, the adjusting column and the push ring can be replaced according to the outer diameter and the inner diameter of the aluminum pipe, the position of the supporting wheel on the supporting rod can be adjusted according to the inner diameter of the aluminum pipe, and the positions of the first cleaning rod and the second cleaning rod in the aluminum pipe cleaning assembly can be adjusted according to the inner diameter and the outer diameter of the aluminum pipe.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 isbase:Sub>A view taken along line A-A of FIG. 1;

FIG. 3 is a schematic diagram of the first and second fixed cylinders of FIG. 1;

FIG. 4 is a view taken along line B-B of FIG. 3;

FIG. 5 is a view showing the connection structure of the push rod and the push ring;

FIG. 6 is a view showing the construction of the aluminum pipe support assembly;

FIG. 7 is an enlarged view of FIG. 6 at A;

fig. 8 is a structural view of the first telescopic rod and the second telescopic rod.

Reference numerals: 100. a cutting device; 101. cutting the table; 102. cutting the disc; 103. a second cutting carriage; 104. a third cutting slide; 105. rotating the plate; 106. a second motor; 107. a first motor; 108. a first cutting slide; 109. pushing a block; 110. a push rod; 111. a threaded drive rod; 112. a first fixed cylinder; 113. a second fixed cylinder; 114. an adjustment column; 115. a push ring; 116. an adjusting cylinder; 117. an elastic seal ring; 118. a connecting rod; 119. connecting grooves; 120. mounting grooves; 121. mounting a block; 122. connecting a screw rod; 123. a through hole; 124. a first slot; 125. a second slot; 126. an enlarged end; 200. a cleaning device; 201. a first cleaning support; 202. a second cleaning support; 203. a first bi-directional moving assembly; 204. a third motor; 205. a second rotary column; 206. a stay bar; 207. a first telescopic rod; 208. a first spring telescopic rod; 209. a support wheel; 210. a first rotating column; 211. a first cleaning bar; 212. a second telescopic rod; 213. a second cleaning rod; 214. an adjustment groove; 215. an adjusting block; 216. a second adjusting screw; 217. a chute; 218. an adjusting seat; 219. a second spring telescopic rod; 220. adjusting a rod; 221. opening a hole; 300. a transfer device; 301. a second bi-directional motion assembly; 302. a conveyor belt; 303. a support plate; 304. a holder; 305. a support; 1. a slide cylinder; 2. a first adjusting screw; 3. a guide post; 4. a guide groove.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art can appreciate, the described embodiments may be modified in various different ways, without departing from the spirit or scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

In the creation of the present invention, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise the first and second features being in direct contact, or may comprise the first and second features being in contact, not directly, but via another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 8, the invention discloses an aluminum pipe cutting system, which comprises a cutting device 100, a cleaning device 200 and a transfer device 300, wherein the cutting device 100 cuts aluminum pipes, the cleaning device 200 cleans the cuts to remove burrs, and the transfer device 300 transfers the cleaned aluminum pipes.

The cutting device 100 comprises a cutting table 101, and a cutting groove is arranged in the middle of the cutting table 101. The bottom of the cutting table 101 at one side of the cutting groove is provided with a first cutting slide seat 108 in a sliding manner, and the first cutting slide seat 108 is driven by a linear sliding table arranged at the bottom of the cutting table 101, so that the first cutting slide seat 108 slides along the length direction of the cutting groove. The first cutting slide 108 is provided with a vertically arranged cutting disc 102 in a rotating manner, the cutting disc 102 is arranged in the cutting groove, and the first cutting slide 108 is provided with a first motor 107 for driving the cutting disc 102 to rotate.

The cutting table 101 on the two sides of the cutting groove is provided with a second cutting slide seat 103 and a third cutting slide seat 104 in a sliding mode respectively, the second cutting slide seat 103 and the third cutting slide seat 104 slide perpendicular to the cutting groove, and the cutting table 101 is correspondingly provided with a linear sliding table for driving the second cutting slide seat 103 and the third cutting slide seat 104 to slide.

The top of the third cutting slide 104 is rotatably provided with a rotating plate 105, and the top surface of the rotating plate 105 and the top surface of the second cutting slide 103 are in the same plane. A rotary platform is arranged between the rotating plate 105 and the third cutting slide 104, and the rotary platform is arranged on the side part of the third cutting slide 104 far away from the cutting groove. The rotating platform drives the rotating plate 105 to rotate on the third cutting slide 104, so that the rotating plate 105 can rotate around the side of the third cutting slide 104 away from the cutting groove by one hundred eighty degrees.

The second cutting slide seat 103 and the rotating plate 105 are respectively provided with a first aluminum pipe fixing mechanism and a second aluminum pipe fixing mechanism. The first aluminum pipe fixing mechanism comprises a plurality of first fixing cylinders 112 arranged on the second cutting sliding seat 103, the axial direction of the first fixing cylinders 112 is perpendicular to the cutting groove, the first fixing cylinders 112 are arranged along the length direction of the cutting groove, and the first fixing cylinders 112 can be arranged at equal intervals and can also be connected in sequence.

The end part of the first fixed cylinder 112 close to the cutting groove extends to the end part of the second cutting slide seat 103 close to the cutting groove, so that when the second cutting slide seat 103 slides to the direction of the cutting groove to the maximum stroke, the end part of the first fixed cylinder 112 close to the cutting groove is positioned at the side part of the cutting groove.

Be equipped with cylindric lumen in the first fixed section of thick bamboo 112, the tip that first fixed section of thick bamboo 112 is close to the cutting groove is the open end with the lumen intercommunication, and the tip that first fixed section of thick bamboo 112 kept away from the cutting groove is the blind end.

An adjusting cylinder 116 is arranged in the tube cavity, the adjusting cylinder 116 is of a cylindrical structure with openings at two ends, the outer diameter of the adjusting cylinder 116 is matched with the inner diameter of the tube cavity, and the inner diameter of the adjusting cylinder 116 is matched with the outer diameter of the aluminum tube.

The inner wall of the end of the adjusting cylinder 116 at the opening end of the first fixed cylinder 112 is provided with an elastic sealing ring 117, and the elastic sealing ring 117 is arranged along the inner circumference of the adjusting cylinder 116. The elastic sealing ring 117 is made of sponge, and fills a gap possibly existing between the inner wall of the adjusting cylinder 116 and the outer wall of the aluminum pipe, so that waste scraps generated by cutting the aluminum pipe are prevented from entering the gap between the adjusting cylinder 116 and the aluminum pipe.

The outer wall of the adjusting cylinder 116 outside the elastic sealing ring 117 is provided with a connecting rod 118, and the connecting rod 118 is arranged along the radial direction of the adjusting cylinder 116. The lower part of the connecting rod 118 is provided with a mounting block 121, and the mounting block 121 is slidably sleeved on the lower part of the connecting rod 118. The outer wall of the upper part of the connecting rod 118 is provided with screw threads, and the upper part of the connecting rod 118 is correspondingly provided with a nut matched with the screw threads. The outer wall of the open end of the first fixed cylinder 112 is correspondingly provided with a connecting groove 119 matched with the connecting rod 118, the connecting groove 119 is parallel to the axis of the tube cavity, the outer wall of the first fixed cylinder 112 at the inner end of the connecting groove 119 is also provided with a mounting groove 120 matched with a mounting block 121, the mounting groove 120 is communicated with the connecting groove 119, the shape of the mounting groove 120 is matched with the mounting block 121, and the mounting block 121 and the mounting groove 120 are triangles matched with each other in this embodiment.

The loading and unloading process of the adjusting cylinder 116 on the first fixed cylinder 112:

(1) mounting of

Inserting the adjusting cylinder 116 into the first fixing cylinder 112, inserting the connecting rod 118 on the adjusting cylinder 116 into the connecting groove 119 on the first fixing cylinder 112 correspondingly, after the adjusting cylinder 116 completely enters the first fixing cylinder 112, sliding the connecting rod 118 into the mounting groove 120 at the tail end of the connecting groove 119, sliding the mounting block 121 into the mounting groove 120, screwing the nut on the connecting rod 118 onto the top of the mounting block 121, fixing the mounting block 121 in the mounting groove 120 through the nut, at this time, fixing the adjusting cylinder 116 in the first fixing cylinder 112 is completed, and the adjusting cylinder 116 cannot slide in the lumen of the first fixing cylinder 112 along the axial direction thereof due to the matching of the mounting block 121 and the mounting groove 120;

(2) disassembly

The nut on the connecting rod 118 is screwed to lift the nut away from the mounting block 121, the mounting block 121 is sucked out of the mounting groove 120 by the magnet, the connecting rod 118 is shifted towards the opening direction of the connecting groove 119, the adjusting cylinder 116 slides out of the tube cavity of the first fixing cylinder 112, and the detachment of the adjusting cylinder 116 on the first fixing cylinder 112 is completed.

An adjusting column 114 is further arranged in the tube cavity of the first fixing cylinder 112, the adjusting column 114 is cylindrical, and the outer diameter of the adjusting column 114 is matched with the inner diameter of the aluminum tube. The outer end of the adjusting column 114 extends to the opening end of the first fixed cylinder 112, the outer wall of the outer end of the adjusting column 114 is provided with an elastic sealing ring 117 which is the same as that on the adjusting cylinder 116, and the elastic sealing ring 117 on the adjusting column 114 is arranged on the outer wall along the circumference thereof. An elastic sealing ring 117 arranged at the outer end part of the adjusting column 114 fills the gap between the outer wall of the adjusting column 114 and the inner wall of the aluminum pipe, and avoids scraps generated by cutting the aluminum pipe from entering the gap.

The closed end of the first fixed cylinder 112 is provided with two through holes 123, the inner end of the adjusting column 114 is provided with two connecting screws 122 corresponding to the two through holes 123, the two connecting screws 122 at the inner end of the adjusting column 114 respectively pass through the two through holes 123, and the two connecting screws 122 are provided with nuts, so that the detachable connection of the adjusting column 114 and the first fixed cylinder 112 is realized.

A push ring 115 is arranged in a tube cavity between the adjusting column 114 and the adjusting cylinder 116 in a sliding manner, the outer diameter and the inner diameter of the push ring 115 are respectively matched with the outer diameter and the inner diameter of the aluminum tube, and when the push ring 115 slides towards the direction of the cutting groove, the aluminum tube can be pushed to slide towards the cutting groove between the adjusting cylinder 116 and the adjusting column 114.

Two connecting holes are arranged on the side wall of the push ring 115 far away from the cutting groove, the connecting holes are threaded holes, the two connecting holes are located in the same radial direction of the push ring 115, and the two connecting holes are symmetrically arranged around the circle center of the push ring 115. The closed end of the first fixed cylinder 112 is provided with two first insertion grooves 124, the positions of which are matched with the connecting holes, the two first insertion grooves 124 are positioned in the same radial direction of the tube cavity, and the first insertion grooves 124 are strip-shaped grooves arranged along the radial direction of the tube cavity. The second cutting slide seat 103 on the side of the first fixed cylinder 112 far away from the cutting groove is provided with a push block 109 in a sliding manner, and the push block 109 slides along the direction vertical to the cutting groove. The pushing block 109 is provided with a second slot 125 at a corresponding position, and the position and shape of the second slot 125 are projections of the first slot 124 on the pushing block 109. A push rod 110 is arranged between the push block 109 and the push ring 115, the push rod 110 is arranged parallel to the axis of the pipe cavity, two ends of the push rod 110 are movably connected with the push block 109 and the push ring 115 respectively, two ends of the push rod 110 are provided with external threads, the end part of the push rod 110 connected with the push block 109 is provided with an expanded end 126, and the expanded end 126 cannot pass through the second slot 125. The end part of the push rod 110 connected with the push ring 115 sequentially passes through the second slot 125 and the first slot 124 and enters the tube cavity to be in threaded connection with the connecting hole of the push ring 115, the expansion end 126 of the push rod 110 is positioned on the side part of the second slot 125 far away from the cutting groove, a nut is arranged on the push rod 110 on one side of the second slot 125 close to the cutting groove, the nut can not pass through the second slot 125, and the nut and the expansion end 126 clamp the push block 109 after being screwed down, so that the purpose of fixedly connecting the push rod 110 and the push block 109 is achieved.

When the push rings 115 with different sizes are replaced, the connecting holes on the push rings 115 also move in the radial direction of the tube cavity, and the first slot 124 and the second slot 125 are both located in the radial direction of the tube cavity, so that the connecting holes of different push rings 115 are all located on the projection tracks of the first slot 124 and the second slot 125, and only the position of the push rod 110 in the radial direction of the tube cavity needs to be adjusted to be matched with the connecting holes.

The push block 109 is rotatably provided with a threaded driving rod 111 in threaded fit with the push block, the threaded driving rod 111 is arranged along the sliding direction of the push block 109, and the second cutting slide seat 103 is provided with a second motor 106 in a transmission connection with the threaded driving rod 111 at a corresponding position. The second motor 106 drives the threaded driving rod 111 to rotate, the threaded driving rod 111 is in threaded fit with the push block 109, so that the push block 109 slides along the sliding direction of the push block, and the push block 109 pushes the push ring 115 to slide in the tube cavity through the push rod 110.

The second aluminum pipe fixing mechanism has the same structure as the first aluminum pipe fixing mechanism, the second aluminum pipe fixing mechanism comprises a second fixing cylinder 113 having the same structure as the first fixing cylinder 112, the positions of the second fixing cylinders 113 on the rotating plate 105 correspond to the first fixing cylinders 112 respectively, the open ends of the first fixing cylinders 112 and the second fixing cylinders 113 are arranged oppositely, and the pipe cavity of the second fixing cylinder 113 and the pipe cavity of the first fixing cylinder 112 are in a coaxial state. The size and model of the adjusting cylinder 116, the adjusting column 114 and the push ring 115 in the first fixed cylinder 112 and the second fixed cylinder 113 are the same, the second motor 106 arranged on the rotating plate 105 drives the threaded driving rod 111 to slide the push block 109, and the push block 109 slides and drives the push ring 115 to slide in the second fixed cylinder 113 through the push rod 110.

The cleaning device 200 comprises a first cleaning support 201, the first cleaning support 201 is arranged on the side part of the cutting table 101, far away from one side of the cutting groove, of the rotating plate 105, and a second cleaning support 202 is arranged between the first cleaning support 201 and the cutting table 101.

An aluminum pipe supporting assembly which corresponds to and is matched with the second fixing cylinder 113 in position is arranged on the side wall, close to the cutting table 101, of the first cleaning support 201, and after the rotating plate 105 drives the plurality of second fixing cylinders 113 to rotate on the third cutting slide seat 104 by one hundred eighty degrees, the aluminum pipe supporting assembly is located on the axis of the pipe cavities of the plurality of second fixing cylinders 113.

The aluminum pipe supporting assembly comprises a plurality of support rods 206 arranged on the side wall of the first cleaning support 201, the support rods 206 are horizontal and vertical to the cutting grooves, and after the second fixing cylinders 113 rotate on the third cutting slide seat 104 for one hundred eighty degrees, the pipe cavities of the second fixing cylinders 113 are respectively coaxial with the support rods 206.

A plurality of first telescopic rods 207 are uniformly arranged on the outer wall of the supporting rod 206 in the circumferential direction, each first telescopic rod 207 comprises a first adjusting screw rod 2 arranged on the supporting rod 206, each first adjusting screw rod 2 is arranged in the radial direction of the supporting rod 206, a sliding cylinder 1 is sleeved on each first adjusting screw rod 2, and a nut in threaded fit with the first adjusting screw rods 2 is rotatably arranged at the end part, close to the supporting rod 206, of the sliding cylinder 1. The center of the first adjusting screw rod 2 is provided with a guide groove 4 arranged along the axial direction of the first adjusting screw rod, the guide groove 4 extends to the end part of the first adjusting screw rod 2 far away from the stay bar 206, the inner end part of the sliding barrel 1 is provided with a guide post 3 sliding in the guide groove 4, and the guide groove 4 and the guide post 3 are both in a matched regular prism shape. The nut at the end of the sliding barrel 1 rotates, the sliding barrel 1 slides along the axial direction of the first adjusting screw rod 2 under the threaded fit of the nut and the first adjusting screw rod 2, and the guide post 3 correspondingly slides in the guide groove 4. Since the guide post 3 and the guide groove 4 are regular prism-shaped, the slide cylinder 1 slides only in the axial direction of the first adjusting screw 2, and does not rotate.

The outer end of the slide barrel 1 away from the stay 206 is provided with a first spring telescopic rod 208, and the first spring telescopic rod 208 is arranged along the radial direction of the stay 206. The outer end part of the first spring telescopic rod 208 far away from the support rod 206 is rotatably provided with a support wheel 209, the rotating shaft of the support wheel 209 is perpendicular to the first adjusting screw rod 2 and the axial direction of the support rod 206, so that the radial direction of the support rod 206 is positioned on the rotating surface of the support wheel 209, and the surface of the support wheel 209 is provided with a layer of anti-skid rubber layer.

The position of the spool 1 on the first adjusting screw 2 is adjusted in accordance with the inner diameter of the aluminum pipe so that the distance between the axis of the stay 206 and the outer end of the support wheel 209 is slightly larger than the inner radius (half of the inner diameter) of the aluminum pipe. When the aluminum tube enters the aluminum tube supporting assembly, the aluminum tube enters along the axial direction of the supporting rod 206, the inner wall of the aluminum tube is contacted with the outer end part of the supporting wheel 209, the supporting wheel 209 correspondingly rotates, and the first spring telescopic rod 208 compresses for a certain length so that the outer end part of the supporting wheel 209 is abutted against the inner wall of the aluminum tube. Because a layer of anti-slip rubber layer is arranged on the surface of the plurality of supporting wheels 209, the supporting wheels 209 are pressed against the inner wall of the aluminum pipe by the elasticity of the first spring telescopic rod 208, and the rotating surface of the supporting wheels 209 is positioned in the radial direction of the supporting rod 206, so that the aluminum pipe can only slide along the axial direction of the supporting rod 206 and is difficult to rotate.

A cylindrical first rotating column 210 is rotatably arranged on the side wall of the first cleaning support 201, the center of the first rotating column 210 is provided with an opening 221 through which the first rotating column penetrates, the stay bar 206 penetrates through the opening 221 and is coaxial with the opening 221, the stay bar 206 is not in contact with the inner wall of the opening 221, so that the first rotating column 210 is sleeved on the stay bar 206, and the first rotating column 210 rotates around the axial direction of the stay bar 206. The first cleaning support 201 at the side of the first rotating column 210 is correspondingly provided with a third motor 204 in transmission connection with the first cleaning support, and the third motor 204 drives the first rotating column 210 to rotate around the axial direction of the support rod 206.

The second cleaning support 202 is provided with a first bidirectional moving assembly 203, the first bidirectional moving assembly 203 is provided with a second rotating column 205 with the same outer diameter as that of the first rotating column 210 in a rotating manner, the rotating shaft of the second rotating column 205 and the rotating shaft of the first rotating column 210 are positioned in the same vertical plane, and the first bidirectional moving assembly 203 is further correspondingly provided with a third motor 204 in transmission connection with the second rotating column 205. The first bi-directional moving assembly 203 drives the second rotating column 205 to move in the vertical direction and in the horizontal direction parallel to the axial direction of the supporting rod 206, and the third motor 204 drives the second rotating column 205 to rotate.

The first rotating column 210 and the second rotating column 205 are both provided with an aluminum pipe cleaning assembly, the aluminum pipe cleaning assembly comprises two adjusting grooves 214, and the arrangement direction of the adjusting grooves 214 is parallel to the axial direction of the first rotating column 210 or the second rotating column 205 where the adjusting grooves 214 are located. An adjusting block 215 is arranged in the adjusting groove 214 in a sliding mode, a second adjusting screw 216 in threaded fit with the adjusting block 215 is arranged in the adjusting groove 214 in a rotating mode, and the second adjusting screw 216 is arranged along the length direction of the adjusting groove 214. Adjusting rods 220 coaxially connected with the second adjusting screw 216 are arranged at corresponding positions of outer end portions of the first rotary column 210 and the second rotary column 205, the adjusting rods 220 are rotatably arranged in the first rotary column 210 and the second rotary column 205, cross grooves are formed in the outer end portions of the adjusting rods 220, the adjusting rods 220 can be rotated through a cross screwdriver, the adjusting rods 220 rotate to drive the second adjusting screw 216 to rotate, the second adjusting screw 216 rotates to be in threaded fit with the adjusting block 215, and the adjusting block 215 slides in the adjusting grooves 214 along the axial direction parallel to the support rods 206.

The outer wall of the adjusting block 215 far away from the axis of the stay bar 206 is provided with a sliding groove 217, the arrangement direction of the sliding groove 217 is parallel to the axial direction of the stay bar 206, and an adjusting seat 218 is arranged in the sliding groove 217 in a sliding manner. A second spring telescopic rod 219 arranged along the length direction of the sliding groove 217 is arranged in the sliding groove 217, two ends of the second spring telescopic rod 219 are respectively connected with the adjusting seat 218 and the end of the sliding groove 217, and the second spring telescopic rod 219 is located on one side of a pipe section to be cleaned away from the support rod 206 in the sliding groove 217.

The first rotating column 210 and the second rotating column 205 are respectively provided with two adjusting grooves 214, that is, two adjusting seats 218 are respectively provided, and the two adjusting seats 218 are respectively provided with a first cleaning rod 211 and a second telescopic rod 212. The first cleaning rod 211 is in threaded connection with the adjusting base 218, and the first cleaning rod 211 is arranged along the radial direction of the first rotating column 210 or the second rotating column 205 where the first cleaning rod is located. The structure of the second telescopic rod 212 is the same as that of the first telescopic rod 207, the first adjusting screw 2 of the second telescopic rod 212 is arranged on the adjusting seat 218 along the radial direction of the first rotary column 210 or the second rotary column 205 where the first adjusting screw is located, the side wall of the end part of the sliding cylinder 1 of the second telescopic rod 212, which is far away from the first adjusting screw 2, is provided with two second cleaning rods 213, the two second cleaning rods 213 are sequentially arranged in the axial direction of the sliding cylinder 1, the free ends of the two second cleaning rods 213 are inclined at the same angle towards the direction far away from each other, so that an isosceles trapezoid-shaped notch is formed between the two second cleaning rods 213, and the notches on the first rotary column 210 and the second rotary column 205 are oppositely arranged. The first rotary column 210 and the second rotary column 205 rotate after being coaxial with the aluminum pipe, the edges of the two end parts of the aluminum pipe are cleaned in the notches of the first rotary column 210 and the second rotary column 205 respectively, and the two end parts of the aluminum pipe are cleaned by the first cleaning rods 211 on the first rotary column 210 and the second rotary column 205 respectively. The first cleaning rod 211 and the second cleaning rod 213 are both provided with a polishing layer, in this embodiment, the polishing layer is boron nitride.

The transferring device 300 includes a plurality of conveyor belts 302 disposed on one side of the first cleaning support 201 away from the cutting table 101, and the positions of the conveyor belts 302 correspond to the plurality of support rods 206, respectively. A second bidirectional moving component 301 is arranged above the conveyor belt 302 and the first cleaning support 201, the second bidirectional moving component 301 is arranged on a bracket 305, and the bracket 305 supports the second bidirectional moving component. The second bidirectional moving assembly 301 is provided with a support plate 303, and the second bidirectional moving assembly 301 drives the support plate 303 to perform bidirectional movement, so that the support plate 303 slides along the axial direction and the vertical direction parallel to the stay bar 206. The first bidirectional moving assembly 203 and the second bidirectional moving assembly 301 can both adopt a common bidirectional moving mechanism, such as two linear slides or two ball screws which are respectively controlled to slide horizontally and vertically.

The bottom of the support plate 303 is provided with a plurality of grippers 304, the positions of the plurality of grippers 304 correspond to the position of the support rod 206, when the second bidirectional moving assembly 301 drives the support plate 303 to move above the support rod 206, the plurality of grippers 304 are respectively positioned right above the plurality of support rods 206, the grippers 304 grip the aluminum tubes on the periphery of the support rods 206, the aluminum tubes slide off the support rods 206 along the axial direction of the support rods 206, and the grippers 304 drive the aluminum tubes to be transferred onto the conveyor belt 302.

The second cutting slide seat 103 and the third cutting slide seat 104 on the cutting table 101 slide away from each other in opposite directions, so that the plurality of first fixed cylinders 112 and the plurality of second fixed cylinders 113 are away from each other, and the distance between the first fixed cylinders and the second fixed cylinders is not less than the length of the aluminum pipe. The position of the push ring 115 in the second fixed cylinder 113 is determined according to the length of the pipe section after the aluminum pipe is cut, the position of the push ring 115 in the first fixed cylinder 112 is determined according to the length of the aluminum pipe, the second cutting slide seat 103 and the third cutting slide seat 104 slide to the side part of the cutting groove, when the first fixed cylinder 112 and the second fixed cylinder 113 are positioned at the side part of the cutting groove, the distance between the push ring 115 in the second fixed cylinder 113 and the cutting groove is the length of the pipe section after the aluminum pipe is cut, and the distance between the push ring 115 in the first fixed cylinder 112 and the second fixed cylinder 113 is the length of the aluminum pipe.

A plurality of aluminum pipes are respectively inserted into the first fixed cylinder 112, the second cutting slide seat 103 and the third cutting slide seat 104 slide in opposite directions to approach each other until the first fixed cylinder 112 and the second fixed cylinder 113 respectively move to two sides of the cutting groove, at this time, the aluminum pipes are inserted into the second fixed cylinder 113, and two ends of the aluminum pipes are respectively contacted with the push rings 115 in the first fixed cylinder 112 and the second fixed cylinder 113.

The cutting disc 102 is operated, the first cutting slide 108 drives the cutting disc 102 to move along the cutting groove, the cutting disc 102 cuts the aluminum tube, and the cut tube section is left in the second fixed cylinder 113.

The third cutting slide 104 slides away from the second cutting slide 103, and the rotating platform drives the rotating plate 105 to rotate one hundred eighty degrees, so that the open end of the second fixed cylinder 113 faces the supporting rod 206, and at this time, the plurality of supporting rods 206 are respectively in a coaxial state with the plurality of second fixed cylinders 113. The third cutting slide seat 104 continues to slide away from the second cutting slide seat 103, so that the open end of the second fixed cylinder 113 is close to the stay bar 206, the push ring 115 in the second fixed cylinder 113 slides towards the open end to push the pipe section out of the second fixed cylinder 113, the pipe section slides along the axial direction of the stay bar 206, and the support wheel 209 correspondingly rotates on the inner wall of the pipe section. The push ring 115 of the second fixed cylinder 113 slides out of the open end and continues to push the end of the pipe segment close to the first cleaning support 201 into contact with the aluminum pipe cleaning assembly on the first rotary column 210, and the pipe segment leaves the second fixed cylinder 113 and is located at the periphery of the support rod 206 and is tightly supported by the support wheel 209.

The rotating plate 105 on the third cutting slide seat 104 rotates one hundred eighty degrees to enable the open end of the second fixed cylinder 113 to face the first fixed cylinder 112, the third cutting slide seat 104 slides to enable the open end of the second fixed cylinder 113 to be located at the cutting groove, the push ring 115 in the second fixed cylinder 113 slides according to the length of the next cutting pipe section to adjust the position, the push ring 115 in the first fixed cylinder 112 slides to push the aluminum pipe into the push ring 115 in the second fixed cylinder 113, and the cutting disc 102 continues to cut.

The first bidirectional moving assembly 203 on the second cleaning support 202 drives the second rotary column 205 to move to the end of the pipe segment far away from the first cleaning support 201, at this time, the second rotary column 205, the brace rod 206 and the pipe segment are in a coaxial state, the first bidirectional moving assembly 203 drives the second rotary column 205 to continue to approach the end of the pipe segment along the axial direction of the brace rod 206, so that the aluminum pipe cleaning assembly on the second rotary column 205 is in contact with the end of the pipe segment far away from the first cleaning support 201. The first rotary column 210 and the second rotary column 205 rotate, the first cleaning rods 211 at the two ends of the pipe section perform deburring on the end part of the pipe section, and the two second cleaning rods 213 at the two ends of the pipe section perform deburring on the edge of the end part of the pipe section respectively.

Before deburring the pipe section, the positions of the notches on the first rotary column 210 and the second rotary column 205 and the first cleaning rod 211 are adjusted according to the inner diameter and the outer diameter of the pipe section. The second adjusting screw 216 is driven to rotate by rotating the adjusting rod 220, so that the notch and the first cleaning rod 211 are adjusted in the axial direction of the pipe section, and the position of the notch in the radial direction of the pipe section is adjusted by the second telescopic rod 212.

After the burr is cleaned, the first bidirectional moving assembly 203 on the second cleaning support 202 drives the second rotating column 205 to reset, and the second rotating column 205 leaves the side of the supporting rod 206 and is positioned below the space between the first cleaning support 201 and the cutting table 101. The second bidirectional moving assembly 301 drives the support plate 303 to move to the upper portions of the plurality of support rods 206, the second bidirectional moving assembly 301 drives the support plate 303 to slide downwards, and the plurality of holders 304 corresponding to the bottom of the support plate 303 respectively hold the tube sections on the plurality of support rods 206. After the pipe segment is clamped by the clamp 304, the second bidirectional moving assembly 301 drives the clamp 304 to slide away from the first cleaning support 201 along the axial direction of the support rod 206, the clamp 304 drives the pipe segment to slide away from the support rod 206, the second bidirectional moving assembly 301 drives the clamp 304 to move onto the plurality of conveyor belts 302, and the clamp 304 places the pipe segment on the conveyor belts 302 for output.

And repeating the process until the last pipe section is left in the first fixed cylinder 112, pushing the pipe section into the second fixed cylinder 113 by the push ring 115 in the first fixed cylinder 112, pushing the pipe section into the cleaning device 200 by the push ring 115 in the second fixed cylinder 113 for cleaning, and outputting the pipe section by the transfer device 300 after cleaning to finish the cutting of the aluminum pipe.

The beneficial effects of the invention are as follows:

the aluminum pipe is fixed by arranging the adjusting cylinder 116 which is in contact with the outer wall of the aluminum pipe outside the aluminum pipe and arranging the adjusting column 114 which is in contact with the inner wall of the aluminum pipe inside the aluminum pipe, so that the aluminum pipe is firmly fixed, the jumping generated in the cutting process of the aluminum pipe is reduced, and the generation of notch burrs of the aluminum pipe is reduced;

the first rotating column 210 and the second rotating column 205 respectively drive the aluminum pipe cleaning assembly to perform burr cleaning on the notch of the aluminum pipe, the cleaning efficiency is high, and the quality of the cut product is improved;

after the aluminum pipe is placed into the equipment, the cutting, cleaning and transferring of the aluminum pipe are automatically carried out, the automation degree is high, the manual intervention is reduced, the manual labor intensity is reduced, and the operation efficiency is improved;

the length of the pipe section cut by the same aluminum pipe can be changed randomly within a certain range, namely when the length of the next pipe section is different from that of the previous pipe section, when the next pipe section is cut, the position of the push ring 115 in the second fixed cylinder 113 slides correspondingly to be matched with the length of the next pipe section;

the device is wide in application range, the initial position of the push ring 115 in the first fixing cylinder 112 changes according to the length change of the aluminum pipe, the adjusting cylinder 116, the adjusting column 114 and the push ring 115 can be replaced according to the outer diameter and the inner diameter of the aluminum pipe, the position of the supporting wheel 209 on the supporting rod 206 can be adjusted according to the inner diameter of the aluminum pipe, and the positions of the first cleaning rod 211 and the second cleaning rod 213 in the aluminum pipe cleaning assembly can be adjusted according to the inner diameter and the outer diameter of the aluminum pipe.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the technical solutions of the present invention, so long as the technical solutions can be realized on the basis of the above embodiments without creative efforts, and should be considered to fall within the protection scope of the patent claims of the present invention.

Claims (10)

1. An aluminum pipe cutting system, comprising:

cutting the table;

the cutting groove is arranged on the cutting table;

the cutting disc is rotatably arranged in the cutting groove and can slide along the cutting groove;

the second cutting slide seat and the third cutting slide seat are respectively arranged on the cutting tables at two sides of the cutting groove in a sliding manner, and the sliding direction is vertical to the arrangement direction of the cutting groove;

the fixed cylinders are arranged on the second cutting slide seat and the third cutting slide seat;

the tube cavity is arranged in the fixed cylinder, the axial direction of the tube cavity is vertical to the cutting groove, and one end of the fixed cylinder is an opening end communicated with the tube cavity;

the adjusting cylinder is arranged in the tube cavity, is connected with the fixing cylinder and has the inner diameter matched with the outer diameter of the aluminum tube;

the adjusting column is arranged in the tube cavity, is connected with the fixed cylinder and has an outer diameter matched with the inner diameter of the aluminum tube;

the push ring is arranged in a tube cavity between the adjusting cylinder and the adjusting column in a sliding manner, and the outer diameter and the inner diameter of the push ring are respectively matched with the inner diameter of the adjusting cylinder and the outer diameter of the adjusting column;

the opening ends of the fixed cylinders on the second cutting slide seat and the third cutting slide seat are arranged oppositely, and the tube cavities of the fixed cylinders on the second cutting slide seat are coaxially arranged with the tube cavities of the fixed cylinders on the third cutting slide seat respectively.

2. The aluminum pipe cutting system according to claim 1, wherein the adjusting cylinder and the adjusting column are provided with elastic sealing rings on the inner wall and the outer wall of the end portion of the adjusting cylinder at the opening end of the fixed cylinder, the inner end portion of the adjusting column is connected with the end portion of the fixed cylinder through a bolt, a connecting rod is arranged on the outer wall of the adjusting cylinder close to the opening end of the fixed cylinder, an external thread and a corresponding nut are arranged on the outer wall of the upper portion of the connecting rod, a mounting block is slidably sleeved on the lower portion of the connecting rod, a connecting groove matched with the connecting rod is arranged on the outer wall at the opening end of the fixed cylinder, and a mounting groove matched with the mounting block is arranged on the outer wall of the fixed cylinder at the inner end of the connecting groove.

3. The aluminum pipe cutting system according to claim 1, wherein a connecting hole is formed in a side wall of the push ring away from an opening end of the fixed cylinder, a push rod in threaded connection with the connecting hole is arranged in the connecting hole, external threads, corresponding nuts and an enlarged end are sequentially arranged at one end of the push rod away from the push ring, a first slot which is matched with the connecting hole and is used for the push rod to pass through is formed in the end portion of the fixed cylinder, the first slot is arranged in the radial direction of the adjusting cylinder, a push block which slides along the axial direction of the pipe cavity is arranged on a second cutting slide seat and a third cutting slide seat which are arranged on one side of the fixed cylinder away from the cutting groove, a second slot through which the push rod passes is formed in the push block, the second slot is positioned and shaped as a projection of the first slot on the push block, and the enlarged end of the push rod is positioned on one side of the second slot away from the fixed cylinder.

4. The aluminum pipe cutting system according to claim 1, wherein a rotating plate is rotatably provided on the third cutting slide, a fixed cylinder on the third cutting slide is provided on the rotating plate, a first cleaning support is provided on a side portion of the cutting table, a second cleaning support is provided between the first cleaning support and the cutting table, an aluminum pipe supporting assembly matched with the plurality of fixed cylinders of the third cutting slide is provided on a side wall of the first cleaning support close to the cutting table, a first bidirectional moving assembly is provided on the second cleaning support, and an aluminum pipe cleaning assembly is rotatably provided on side walls of the first bidirectional moving assembly and the first cleaning support.

5. The aluminum pipe cutting system according to claim 4, wherein the aluminum pipe supporting assembly comprises a plurality of support rods arranged on the side wall of the first cleaning support, the plurality of support rods are respectively arranged at positions corresponding to the plurality of fixed cylinders of the third cutting slide, a plurality of first telescopic rods are uniformly arranged on the outer wall of each support rod in the circumferential direction, first spring telescopic rods arranged along the radial direction of each support rod are arranged on the first telescopic rods, and support wheels are rotatably arranged on the first spring telescopic rods.

6. The aluminum pipe cutting system according to claim 5, wherein a first rotary column is sleeved on the support rod and is rotatably connected with a first cleaning support, a second rotary column is rotatably arranged on the first bidirectional moving assembly, third motors which are in transmission connection with the first rotary column and the second rotary column are respectively arranged on the first cleaning support and the first bidirectional moving assembly, and the aluminum pipe cleaning assembly is arranged on the first rotary column and the second rotary column.

7. The aluminum pipe cutting system according to claim 6, wherein the aluminum pipe cleaning assembly includes a first cleaning rod and a second telescopic rod which are provided on the first rotary column and the second rotary column, two second cleaning rods are provided in sequence in the axial direction of the second telescopic rod, and the free ends of the two second cleaning rods are inclined at the same angle in the direction away from each other, so that an isosceles trapezoid-shaped notch is formed between the two second cleaning rods, the notches of the first rotary column and the second rotary column are arranged oppositely, and the first cleaning rod and the second cleaning rod are provided with a grinding layer.

8. The aluminum pipe cutting system according to claim 7, wherein two sliding grooves are respectively formed in corresponding positions of the first rotating column and the second rotating column, an adjusting seat is slidably disposed in each sliding groove, a second spring telescopic rod connected with the adjusting seat is further disposed in each sliding groove, and the first cleaning rod and the second telescopic rod are respectively disposed on the adjusting seat of the two sliding grooves.

9. The aluminum pipe cutting system according to claim 8, wherein two adjusting grooves are formed in the first rotary column and the second rotary column at corresponding positions, adjusting blocks are slidably disposed in the adjusting grooves, a second adjusting screw rod in threaded fit with the adjusting blocks is rotatably disposed in the adjusting grooves, and the two sliding grooves are formed in the two adjusting blocks respectively.

10. The aluminum tube cutting system according to claim 4, wherein a plurality of conveyor belts are provided on a side of the first cleaning support remote from the cutting table, the conveyor belts being positioned to correspond to the aluminum tube supporting members, a second bi-directional moving member is provided above the conveyor belts and the first cleaning support, a support plate is provided on the second bi-directional moving member, and a plurality of grippers are provided on the bottom of the support plate, the grippers being positioned to correspond to the aluminum tube supporting members.

Images